Data processing method, its program,and its device

ABSTRACT

A management device  20  outputs key designation data read from a card to a SAM unit  9   a.  The SAM unit  9   a  uses mutual authentication key data designated by key designation data to generate synthetic key data. The management device  20  and the SAM unit  9   a  use the synthetic key data for authentication. When the SAM unit  9   a  confirms the legitimacy of the management device  20 , it executes processing related to one or more mutual authentication key data used for generating the synthetic key data.

TECHNICAL FIELD

The present invention relates to a data processing method for performing predetermined processing based on authentication results, its program, and its device.

BACKGROUND ART

There is a system where an authenticating side (authenticating means) confirms the legitimacy of an authenticated side (means to be authenticated), then executes processing authorized to the authenticated side.

In such a system, for example, the authenticating side holds mutual authentication key data for all authenticated sides and selects the mutual authentication key data corresponding to an authenticating side to perform the mutual authentication for each authenticating side.

Further, when confirming the legitimacy of the authenticated side by the mutual authentication, the authenticating side specifies processing authorized to the authenticated side in advance based on a management table etc. and executes the specified processing.

In the above-explained conventional system, however, the authenticated side must hold the mutual authentication key data corresponding to all authenticating sides, so there is a problem that the management load of the mutual authentication key data is large.

Further, in the above-explained conventional system, it is necessary to specify the processing authorized to an authenticated side based on a management table separately from the mutual authentication, so there is the problem of a large load for preparation, management, etc. of the management table.

DISCLOSURE OF THE INVENTION

The present invention has as its object to provide a data processing method enabling reduction of a processing load of the authenticating means when the authenticating means authenticates the means to be authenticated, then executes processing authorized to the means to be authenticated, its program, and its device.

To attain the above object, the data processing method of a first aspect of the invention provides a data processing method performed by a means to be authenticated for holding first authentication use data generated by encryption using key data and an authenticating means for holding the key data, comprising a first step of having the means to be authenticated provide key designation data designating the key data to the authenticating means; a second step of having the authenticating means perform encryption using the key data designated by the key designation data received at the first step to generate second authentication use data; a third step of having the means to be authenticated use the first authentication use data for authentication and having the authenticating means use the second authentication use data for authentication; and a fourth step of having the authenticating means execute processing related to the key data when the authentication at the third step decides that the first authentication use data and the second authentication use data are the same.

The mode of operation of the data processing method of the first aspect of the invention is as follows.

At the first step, a means to be authenticated provides key designation data for designating key data to the authenticating means.

Next, at the second step, the authenticating means performs encryption using the key data designated by the key designation data received at the first step to generate second authentication use data.

Next, at the third step, the means to be authenticated uses the first authentication use data for authentication, and the authenticating means uses uses the second authentication use data for authentication.

Next, at the fourth step, the authenticating means executes processing related to the key data when the authentication in the third step judges that the first authentication use data and the second authentication use data are the same.

A data processing system of a second aspect of the invention provides a data processing system having a means to be authenticated for holding first authentication use data generated by encryption using key data and an authenticating means for holding the key data, wherein the means to be authenticated provides key designation data designating the key data to the authenticating means, the authenticating means performs encryption using the key data designated by the key designation data received from the means to be authenticated to generate second authentication use data, the means to be authenticated uses the first authentication use data for authentication and the authenticating means uses the second authentication use data for authentication, and the authenticating means executes the processing related to the key data when the authentication decides that the first authentication use data and the second authentication use data are the same.

The mode of operation of the data processing system of the second aspect of the invention is as follows.

First, the means to be authenticated provides key designation data designating key data to the authenticating means.

Next, the authenticating means performs encryption using the key data designated by the key designation data received at the first step to generate second authentication use data.

Next, the means to be authenticated uses the first authentication use data for authentication, and the authenticating means uses the second authentication use data for authentication.

Next, the authenticating means executes the processing related to the key data when the authentication decides that the first authentication use data and the second authentication use data are the same.

A data processing method of a third aspect of the invention provides a data processing method where an authenticating means holding predetermined key data performs authentication together with a means to be authenticated holding first authentication use data generated by encryption using the key data, comprising a first step of receiving key designation data for designating the key data from the means to be authenticated; a second step of using the key data designated by the key designation data received at the first step for encryption to generate second authentication use data; a third step of using the second authentication use data generated at the second step for authentication with the means to be authenticated using the first authentication use data for authentication; and a fourth step of executing processing related to the key data when the authentication at the third step decides that the first authentication use data and the second authentication use data are the same.

A data processing system of a fourth aspect of the invention provides a data processing system for authentication with a means to be authenticated holding first authentication use data generated by encryption using predetermined key data and holding the key data, comprising an inputting means for inputting key designation data for designating the key data from the means to be authenticated; an authenticating means for using the key data designated by the key designation data received by the inputting means for encryption to generate second authentication use data and using the second authentication use data for authentication with the means to be authenticated using the first authentication use data for authentication; and a controlling means for executing processing related to the key data when the authentication by the authenticating means decides that the first authentication use data and the second authentication use data are the same.

A program of a fifth aspect of the invention provides a program to be executed by a data processing system for authentication with a means to be authenticated holding first authentication use data generated by encryption using predetermined key data and holding the predetermined key data, comprising a first routine of receiving key designation data for designating the key data from the means to be authenticated; a second routine of encryption using the key data designated by the key designation data received by the first routine to generate second authentication use data; a third routine of using the second authentication use data generated by the second routine for authentication with the means to be authenticated using the first authentication use data for authentication; and a fourth routine of executing processing related to the key data when the authentication in the third routine decides that the first authentication use data and the second authentication use data are the same.

A data processing method of a sixth aspect of the invention provides a data processing method performed by a means to be authenticated when an authenticating means holding key data uses key data designated from the means to be authenticated holding the first authentication use data for encryption to generate second authentication use data, uses the second authentication use data for authentication with the means to be authenticated, and performs processing related to the key data conditional on the authentication confirming that the first authentication use data and the second authentication use data are the same, comprising a first step of providing key designation data for designating the key data used when generating first authentication use data based on the predetermined generation method to the authenticating means; a second step of using the first authentication use data for authentication with the authenticating means; and a third step of making the authenticating means perform processing related to the key data based on the results of the authentication at the second step.

A data processing system of a seventh aspect of the invention provides a data processing system forming a means to be authenticated when an authenticating means holding key data uses key data designated from the means to be authenticated holding the first authentication use data for encryption to generate second authentication use data, uses the second authentication use data for authentication with the means to be authenticated, and performs processing related to the key data conditional on the authentication confirming that the first authentication use data and the second authentication use data are the same, comprising a first means for providing key designation data for designating the key data used when generating first authentication use data based on the predetermined generation method to the authenticating means; a second means for using the first authentication use data for authentication with the authenticating means; and a third means for making the authenticating means perform processing related to the key data based on the results of the authentication of the second means.

A program of an eighth aspect of the invention, there is provided a program to be executed by a data processing system forming a means to be authenticated when an authenticating means holding key data uses key data designated from the means to be authenticated holding the first authentication use data for encryption to generate second authentication use data, uses the second authentication use data for authentication with the means to be authenticated, and performs processing related to the key data conditional on the authentication confirming that the first authentication use data and the second authentication use data are the same, comprising a first routine of providing key designation data for designating the key data used when generating first authentication use data based on the predetermined generation method to the authenticating means; a second routine of using the first authentication use data for authentication with the authenticating means; and a third routine of making the authenticating means perform processing related to the key data based on the results of the authentication of the second means.

BRIEF DESCRIPTION OF THE DRAWINGS

FIG. 1 is a view of the overall configuration of a communication system of an embodiment of the present invention.

FIG. 2 is a functional block diagram of a management device shown in FIG. 1.

FIG. 3 is a flow chart for explaining an outline of the processing routine performed by the management device shown in FIG. 2.

FIG. 4 is a view for explaining a card used in processing relating to an AP edit tool and management tool shown in FIG. 2.

FIG. 5 is a functional block diagram of an IC card shown in FIG. 1.

FIG. 6 is a view for explaining data stored in a memory shown in FIG. 5.

FIG. 7 is a view for explaining the software configuration of a SAM module shown in FIG. 1.

FIG. 8 is a view for explaining the hardware configuration of the SAM module shown in FIG. 1 and a memory area of an external memory 7.

FIG. 9 is a view for explaining an AP memory area shown in FIG. 8.

FIG. 10 is a view for explaining application element data.

FIG. 11 is a view for explaining the type of application element data APE.

FIG. 12 is a flow chart for explaining preparation routines of an owner card and a user card.

FIG. 13 is a view for explaining mutual authentication key data.

FIG. 14 is a view for explaining a mutual authentication code.

FIG. 15A and FIG.15B are views for explaining the relationship between the mutual authentication key data and service.

FIG. 16 is a view for explaining a method for generating synthetic key data.

FIG. 17 is a view for explaining another method of generation of synthetic key data.

FIG. 18 is a view for explaining the hierarchy of encryption of synthetic key data.

FIG. 19 is a view for explaining an example of the features of synthetic key data.

FIG. 20 is a view for explaining an example of a mode of use of the mutual authentication key data.

FIG. 21 is a flow chart for explaining mutual authentication between a SAM management function portion of the management device shown in FIG. 1 and the SAM unit.

FIG. 22 is a flow chart for explaining mutual authentication between a SAM management function portion of the management device shown in FIG. 1 and the SAM unit continuing from FIG. 21.

FIG. 23 is a flow chart for explaining the processing of the SAM unit.

FIG. 24 is a view for explaining a screen used for issuing various types of cards relating to the management device explained by using FIG. 2 and FIG. 4.

FIG. 25 is a view for explaining a screen for preparation of an owner card.

FIG. 26 is a view for explaining a card request screen.

FIG. 27 is a view for explaining a screen for preparation of a user card.

FIG. 28 is a view for explaining a screen for preparation of an AP encryption card.

FIG. 29 is a view for explaining a screen for preparation of a transport card.

FIG. 30 is a view for explaining a SAM management screen.

FIG. 31 is a view for explaining a screen showing an example of display content of a SAM tree area shown in FIG. 30.

FIG. 32 is a view for explaining icons displayed in the SAM tree area shown in FIG. 30.

FIG. 33 is a view for explaining a SAM network screen.

FIG. 34 is a view for explaining a group screen.

FIG. 35 is a view for explaining a SAM screen.

FIG. 36 is a view for explaining an AP memory area screen.

FIG. 37 is a view for explaining an APE type screen.

FIG. 38 is a view for explaining an instance screen.

FIG. 39 is a screen where a SAM command of a menu bar shown in FIG. 30 is designated.

FIG. 40 is a view for explaining a case where a group of SAMs is prepared on the SAM management screen shown in FIG. 30.

FIG. 41 is a view for explaining an AP memory area editor screen.

FIG. 42 is a view for explaining a screen for adding a package of the application element data APE.

FIG. 43 is a view for explaining a screen for preparing the application element data APE.

FIG. 44 is a view for explaining a screen for adding a version of the application element data APE.

FIG. 45 is a view for explaining an AP memory area editor screen after a series of processing.

BEST MODE FOR WORKING THE INVENTION

Hereinafter, an explanation will be given of preferred embodiments by referring to the drawings.

FIG. 1 is a view of the overall configuration of a communication system 1 of the present embodiment.

As shown in FIG. 1, the communication system 1 uses a server apparatus 2 disposed in a store etc., an IC card 3, a card reader/writer 4, a personal computer 5, an ASP (application service provider) server apparatus 19, SAM (secure application module) units 9 a, 9 b, . . . , a management device 20, and a mobile communication device 41 having a built-in IC module 42 to communicate via the Internet 10 and perform processing such as settlements using the IC card 3 or the mobile communication device 41.

In the communication system 1, the management device 20 and the SAM units 9 a and 9 b perform the processing relating to an embodiment corresponding to the present invention.

Namely, the management device 20 performs processing for issuing cards (for example, owner cards and user cards explained later) having built-in ICs (integrated circuits of the present invention) used for making the SAM units 9 a and 9 b perform predetermined processing authorized by a manager etc. Due to this, it provides data required for mutual authentication to the means to be authenticated.

Further, the management device 20 performs mutual authentication between the issued cards used by the manager and the user and the SAM units 9 a and 9 b and makes the SAM units 9 a and 9 b perform the authorized predetermined processing.

In this case, the management device 20 becomes the means to be authenticated of the present invention, and the SAM units 9 a and 9 b become the authenticating means of the present invention.

FIG. 2 is a functional block diagram of the management device 20.

As shown in FIG. 2, the management device 20 has for example an AP edit tool 51, a management tool 52, a card reader/writer 53, a display 54, an I/F 55, and an operation unit 56.

Here, the management device 20 corresponds to the data processing device of the eighth aspect of the invention, the I/F 55 corresponds to the first means of the present invention, and a SAM management function portion 57 corresponds to the second means and the third means of the present invention.

The AP edit tool 51 and the management tool 52 may be realized by the data processing system executing a program (corresponding to the program of the ninth aspect of the invention) and may be realized by an electronic circuit (hardware).

The management tool 52 has for example a SAM management function portion 57 and a card management function portion 58.

The card reader/writer 53 transfers data by a noncontact method or a contact method with ICs of various cards shown below.

The display 54 is used for displaying a card issuance screen and an AP management screen.

The I/F 55 transfers data with the SAM units 9 a and 9 b by the noncontact method or the contact method.

The operation unit 56 is used for inputting instructions or data to the AP edit tool 51 and the management tool 52.

FIG. 3 is a flow chart for explaining an outline of the processing routine performed by the management device 20.

Step ST1:

The management device 20 prepares an owner card 72 in which predetermined data is stored using a default card 71 set in the card reader/writer 53 by the card management function portion 58 in response to operation of the manager. Further, it prepares a user card 73 by using the owner card 72.

Namely, the management device 20 encrypts the device key data explained later by using the mutual authentication key data (key data of the present invention) related to the processing authorized to the means to be authenticated using the owner card 72 and the user card 73 among processings relating to the SAM units 9 a and 9 b (authenticating means of the present invention) by a predetermined encryption method (predetermined generation method of the present invention) and generates the synthetic key data (first authentication use data of the present invention) making the mutual authentication key data hard to restore.

Then, the management device 20 writes the generated synthetic key data and the key designation data designating the mutual authentication key data used for the generation of the synthetic key data into the ICs (integrated circuits of the present invention) of the owner card 72 and the user card 73.

Further, in the same way, the management device 20 prepares the transport card 74 and the AP encryption card 75.

Step ST2:

Where the user of the owner card 72 or the user card 73 makes the SAM units 9 a and 9 b perform the processing the authority of which was given to the user via the management device 20 by using these cards, the user makes the card reader/writer 53 of the management device 20 read and fetch the key designation data stored in the IC of the owner card 72 or the user card 73.

The SAM management function portion 57 of the management device 20 outputs the read key designation data to the SAM units 9 a and 9 b.

Step ST3:

The SAM units 9 a and 9 b use the mutual authentication key data designated by the key designation data to encrypt the device key data by a predetermined encryption method and generate synthetic key data (second authentication use data of the present invention).

Step ST4:

The SAM management function portion 57 uses the synthetic key data read out from the card 72 or the card 73 for authentication, while the SAM units 9 a and 9 b use the generated synthetic key data for authentication.

Step ST5:

When the authentication decides that the SAM management function portion 57 and the SAM units 9 a and 9 b hold the same synthetic key data, the SAM units 9 a and 9 b execute processing related to one or more mutual authentication key data used for generating the synthetic key data in response to an instruction from the management device 20.

FIG. 4 is a view for explaining cards used in the processing relating to the AP edit tool 51 and the management tool 52 shown in FIG. 2.

As shown in FIG. 4, when using the management tool 52 of the management device 20 to access the SAM units 9 a and 9 b, the owner card 72 and the user card 73 are used.

Further, when providing an AP package file generated by the AP edit tool 51 to the management tool 52, the AP package file is encrypted using the encryption key data stored in the IC of the AP encryption card 75.

Namely, as shown in FIG. 4, the user prepares the application element data APE configuring the application program AP in the SAM module 8 by using the AP edit tool 51.

Then, the AP edit tool 51 prepares an AP package file including one or more application element data APE, encrypts this by using the encryption key data stored in the AP encryption card 75, and provides this to the management tool 52.

The management tool 52 performs mutual authentication with the SAM units 9 a and 9 b as explained above and writes the AP package file received from the AP edit tool 51 to the AP memory areas in the SAM units 9 a and 9 b authorized relating to the mutual authentication key data used for the mutual authentication.

Further, the transport card 74 is used for extracting data relating to the security of key data etc. held by the SAM units 9 a and 9 b, transferring the same to another apparatus, and storing the same.

[IC Card 3 and Mobile Communication Device 41]

FIG. 5 is a functional block diagram of the IC card 3.

As shown in FIG. 5, the IC card 3 has an IC (integrated circuit) module 3 a provided with a memory 50 and a CPU 51.

The memory 50 has, as shown in FIG. 6, a memory area 55_1 used by a service business 15_1 such as a credit card company, a memory area 55_2 used by a service business 15_2, and a memory area 55_3 used by a service business 15_3.

Further, the memory 50 stores the key data used for deciding the access right to the memory area 55_1, the key data used for deciding the access right to the memory area 55_2, and the key data used for deciding the access right to the memory area 55_3. The key data is used for the mutual authentication, the encryption and decryption, etc. of the data.

Further, the memory 50 stores identification data of the IC card 3 or the user of the IC card 3.

The mobile communication device 41 has a communication processing unit 43 for communication with ASP server apparatuses 19 a and 19 b via a mobile phone network and the Internet 10 and an IC module 42 able to transfer data with the communication processing unit 43 and communicates with the SAM unit 9 a from an antenna via the Internet.

The IC module 42 has the same functions as those of the IC module 3 a of the IC card explained above except for the point of transferring data with the communication processing unit 43 of the mobile communication device 41.

Note that the processing using the mobile communication device 41 is carried out in the same way as the processing using the IC card 3, while the processing using the IC module 42 is carried out in the same way as the processing using the IC module 3 a. Therefore, in the following explanation, the processing using the IC card 3 and the IC module 3 a will be exemplified.

Below, an explanation will be given of the SAM units 9 a and 9 b.

As shown in FIG. 1, the SAM units 9 a and 9 b have external memories 7 and SAM modules 8.

Here, the SAM module 8 may be realized as a semiconductor circuit or may be realized as a device accommodating a plurality of circuits in a housing.

[Software Configuration of SAM Module 8]

The SAM module 8 has the software configuration as shown in FIG. 7.

As shown in FIG. 7, the SAM module 8 has, from the bottom layer to the top layer, a hardware HW layer, a driver layer (OS layer) including an RTOS kernel etc. corresponding to the peripheral HW, a lower handler layer for performing processing in logically composed units, an upper handler layer combining application-specific libraries, and an AP layer in that order.

Here, in the AP layer, the application programs AP_1, AP_2, and AP_3 prescribing procedures by the service businesses 15_1, 15_2, and 15_3 such as the credit card company shown in FIG. 1 using the IC cards 3 are read out from the external memory 7 and run.

In the AP layer, firewalls FW are provided between the application programs AP_1, AP_2, and AP_3 and between them and the upper handler layer.

[Hardware Configuration of SAM Module 8]

FIG. 8 is a view for explaining the hardware configuration of the SAM module 8 and the memory area of the external memory 7.

As shown in FIG. 8, the SAM module 8 has for example a memory I/F 61, an external I/F 62, a memory 63, an authentication unit 64, and a CPU 65 connected via a bus 60.

Here, the SAM module 8 corresponds to the data processing system of the fourth aspect of the invention, the external I/F 62 corresponds to the inputting means of the present invention, the authentication unit 64 corresponds to the authenticating means of the present invention, and the CPU 65 corresponds to the controlling means of the present invention.

Further, the SAM module 8 corresponds to the data processing system of the fifth aspect of the invention. It is also possible to execute a program including the following routines to realize its functions thereof.

The memory I/F 61 transfers data with the external memory 7.

The external I/F 62 transfers data and commands with the ASP server apparatuses 19 a and 19 b and the management device 20 shown in FIG. 1.

The memory 63 stores various key data etc. used for the mutual authentication etc. of the SAM units 9 a and 9 b explained later. The key data may be stored in the AP management use memory area 221 of the external memory 7 as well.

The authentication unit 64 performs the processing relating to the mutual authentication explained later. The authentication unit 64 performs for example encryption and decryption using predetermined key data.

The CPU 65 centrally controls the processing of the SAM module 8.

When confirming that the means to be authenticated is a legitimate party by the mutual authentication, the CPU 65 authorizes the processing related to the mutual authentication key data explained later to the means to be authenticated and executes this as will be explained later.

A detailed explanation will be given below of the mutual authentication processing by the SAM module 8.

[External Memory 7]

As shown in FIG. 8, the memory area of the external memory 7 includes an AP memory area 220_1 (service AP resource area) for storing the application program AP_1 of the service business 15_1, an AP memory area 220_2 for storing the application program AP_2 of the service business 15_2, an AP memory area 220_3 for storing the application program AP_2 of the service business 15_3, and an AP management use memory area 221 (system AP resource area and manufacturer AP resource area) used by the manager of the SAM module 208.

The application program AP_1 stored in the AP memory area 220_1 is comprised of a plurality of application element data APE (data modules of the present invention) explained later as shown in FIG. 9. The access to the AP memory area 220 1 is restricted by a firewall FW_1.

The application program AP_2 stored in the AP memory area 220 2 is comprised of a plurality of application element data APE as shown in FIG. 9. The access to the AP memory area 220_2 is restricted by a firewall FW_2.

The application program AP_3 stored in the AP memory area 220_3 is comprised of a plurality of application element data APE as shown in FIG. 9. The access to the AP memory area 220_3 is restricted by a firewall FW_3 (illustrated in FIG. 8).

In the present embodiment, the application element data APE is the minimum unit downloaded from the outside of for example the SAM unit 9 a into the external memory 7. The number of the application element data APE composing each application program can be freely determined by the corresponding service business.

Further, the application programs AP_1, AP_2, and AP_3 are prepared for example by service businesses 16_1, 16_2, and 16_3 by using the personal computers 15_1, 15_2, and 15_3 shown in FIG. 1 and downloaded to the external memory 7 via the SAM mobile 8.

Note that the program and the data stored in the AP management use memory area 221 are also comprised by using the application element data APE.

FIG. 10 is a view for explaining the application element data APE.

The application element data APE is comprised by using the instance prescribed according to the APE type indicating the classification prescribed based on the attribute (type) of the APE as shown in FIG. 10.

Each instance is prescribed according to an element ID, an element property, and an element version.

It is prescribed based on the APE type in which of the service AP memory areas 220_1, 220_2, and 220_3 and the AP management use memory area 221 the application element data APE is stored.

The service AP memory area 220 1 stores the data which can be accessed by each service business.

Note that the AP management use memory area 221 has a system AP memory area for storing the data which can be accessed by the manager of the system and a manufacturer AP memory area for storing the data which can be accessed by the manufacturer of the system.

Further, the AP memory area is comprised by the service AP memory areas 220_1, 220_2, and 220_3 and the AP management use memory area 221.

In the present embodiment, an ID (AP memory area ID) is assigned to each of the service AP memory areas 220_1, 220_2, and 220_3 and the AP management use memory area 221, and an identification use number (APE type number, instance number, and element version number) is assigned to each of the APE type, the instance, and the element version.

FIG. 11 is a view for explaining an example of the APE type.

As shown in FIG. 11, the APE type includes IC system key data, IC area key data, IC service key data, IC synthetic key data, IC key change package, IC issuance key package, IC EXPANSION issuance key package, IC area registration key package, IC area deletion key package, IC service registration key package, IC service deletion key package, IC memory division key package, IC memory division element key package, obstacle recording file, mutual authentication use key, package key, negative list, and service data temporary file.

The APE type number is assigned to each APE type.

Below, an explanation will be given of part of the APE type shown in FIG. 1.

The IC system key data, the IC area key data, the IC service key data, and the IC synthetic key data are card access key data used for the read/write operation of data with respect to the memories 50 of the IC card 3 and the IC module 42.

The mutual authentication use key data is also used for the mutual authentication between APs existing in the same SAM. The SAM mutual authentication use key data means the key data used when accessing the corresponding application element data APE from another AP in the same SAM or another SAM.

The IC memory division use key package is the data used for dividing the memory area of the external memory 7 and the memory of the IC card 3 before the start of provision of service using the IC card 3 by the service business.

The IC area registration key package is the data used at the time of area registration in the memory area of the memory of the IC card 3 before starting provision of service using the IC card 3 by the service business.

The IC area deletion key package is a package able to be automatically generated from the card access key data inside the SAM.

The IC service registration use key package is used for registering the application element data APE of the external memory 7 before the start of the provision of the service using the IC card 3 by the service business.

The IC server deletion key package is used for deleting application element data APE registered in the external memory 7.

[Preparation of Owner Card 72 and User Card 73]

FIG. 12 is a flow chart for explaining routines for preparation of the owner card 72 and the user card 73.

FIG. 12 shows details of steps ST1 and ST2 shown in FIG. 3.

Step ST11:

For example, when the manager prepares the owner card 72, it selects the processing relating to the SAM units 9 a and 9 b authorized to the user of the owner card 7-2.

Further, when the manager etc. prepares the user card 73, it selects the processing relating to the SAM units 9 a and 9 b authorized to the user of the user card 73.

The processing relating to the SAM units 9 a and 9 b includes for example the processing for executing the functions provided by the SAM units 9 a and 9 b or the access to the data held by the SAM units 9 a and 9 b (for example the application element data APE).

Step ST12:

The manager etc. selects the mutual authentication key data related to the processing selected at step ST11 and inputs or designates the same to the card management function portion 58 of the management device 20.

The mutual authentication key data will be explained in detail later.

Step ST13:

The card management function portion 58 of the management device 20 uses one or more mutual authentication key data selected at step ST12 to generate the synthetic key data based on the degradation processing method (the predetermined generation method of the present invention) explained later.

The degradation processing will be explained in detail later.

Step ST14:

The card management function portion 58 of the management device 20 generates the key designation data indicating the mutual authentication code for identifying the mutual authentication key data used for generating the synthetic key data at step ST13.

The key designation data becomes data indicating the right of execution of the processing relating to the SAM units 9 a and 9 b acquired by the user of the owner card 72 or the user card 73.

Step ST15:

The card management function portion 58 of the management device 20 writes the synthetic key data generated at step ST13 and the key designation data generated at step ST14 into the IC of the owner card 72 or the user card 73.

Step ST16:

The card management function portion 58 of the management device 20 registers the mutual authentication key data used for generating the synthetic key data of step ST13 into the SAM units 9 a and 9 b.

Below, an explanation will be given of the mutual authentication key data covered by the selection at step ST12 shown in FIG. 12 explained above.

FIG. 13 is a view for explaining the mutual authentication key data covered by the selection at step ST12 shown in FIG. 12.

As shown in FIG. 13, the mutual authentication key data includes for example device key data, termination key data, manufacturer setting service mutual authentication key data, hardware management service mutual authentication key data, communication management service mutual authentication key data, mutual authentication service mutual authentication key data, AP memory area management service mutual authentication key data, service AP memory area mutual authentication key data, system AP memory area mutual authentication key data, and manufacturer AP memory area mutual authentication key data.

Further, as shown in FIG. 13 and FIG. 14, the mutual authentication code of the mutual authentication key data is comprised of, as shown in FIG. 14, an AP memory area ID, an element type number, an element instance number, and an element version number explained by using FIG. 10.

Below, an explanation will be given of the key designation data generated at step ST14 shown in FIG. 12 explained above.

The key designation data is a mutual authentication code list comprised by using the mutual authentication codes of a plurality of mutual authentication key data.

FIG. 15A and FIG.15B are views for explaining an example of the key designation data.

At step ST12 of FIG. 12, when for example the device key data, the hardware management service mutual authentication key data, the communication management service mutual authentication key data, the AP memory area management service mutual authentication key data, the service AP memory area mutual authentication key data, and the termination key data shown in FIG. 13 are selected, as shown in FIG. 15A, key designation data indicating the mutual authentication codes of all selected mutual authentication key data is generated.

At step ST13 shown in FIG. 12, when the synthetic key data is generated by using the mutual authentication key data of the mutual authentication codes shown in FIG. 15A, the mutual authentication with the SAM units 9 a and 9 b using the synthetic key data authorizes the management device 20, as shown in FIG. 15B, to access the hardware management service, the communication management service, the IC service (service concerning the IC card 3 and the IC module 421), the mutual authentication service, and the AP memory area management service.

In this way, in the present embodiment, the synthetic key data can be generated by using the functions of the SAM units 9 a and 9 b and the mutual authentication key data related to a plurality of processing including the access to the data held by the SAM units 9 a and 9 b (for example the application element data APE).

Due to this, the mutual authentication using a single synthetic key data enables the SAM units 9 a and 9 b to collectively judge whether or not both of the functions of the SAM units 9 a and 9 b and the access to the data held by the SAM units 9 a and 9 b are authorized to the means to be authenticated.

Then, the SAM units 9 a and 9 b execute the processings relating to the predetermined functions related to the mutual authentication key data and authorize access to the data held by the SAM units 9 a and 9 b from the means to be authenticated in response to an instruction of the means to be authenticated when authenticating that the means to be authenticated is legitimate.

Below, an explanation will be given of the degradation processing method of step ST13 shown in FIG. 12.

FIG. 16 is a flow chart for explaining the degradation processing method.

Step ST21:

The card management function portion 58 of the management device 20 uses the device key data as a message, uses the first of the mutual authentication key data other than the device key data and termination key data selected at step ST12 shown in FIG. 12 as the encryption key, and encrypts the device key data to generate intermediate key data.

Here, when the number of the mutual authentication key data other than the device key data and the termination key data selected at step ST12 is one, the card management function portion 58 performs the processing of the following step ST22 by using the intermediate key data.

On the other hand, when the number of the mutual authentication key data other than the device key data and the termination key data selected at step ST12 is two or more, the card management function portion 58 uses the intermediate key data as the message and uses the next mutual authentication key data as the encryption key to perform the encryption.

The card management function portion 58 uses all mutual authentication key data other than the device key data and the termination key data selected at step ST12 as the encryption key and repeats the above processings until the above encryption is carried out. When it ends, it proceeds to the processing of step ST22.

Step ST22:

The card management function portion 58 uses the intermediate key data obtained at step ST21 as the message and uses the termination key data as the encryption key to perform the encryption to generate the synthetic key data.

The termination key data is tamper-proofing key data and is held only by the manager.

Due to this, it is possible to prevent a party other than the manager from illegitimately tampering with the synthetic key data.

Below, an explanation will be given of a case of generating synthetic key data by a predetermined degradation processing method using the owner termination key data owned by only the manager (owner) and the user termination key data owned by the user given a right from the manager as the termination key data.

FIG. 17 is a flow chart for explaining the degradation processing method.

In FIG. 17, the processings of steps ST31 and ST32 are the same as the processings of steps ST21 and ST22 explained by using FIG. 16 except for the point of using the owner termination key data as the termination key data.

The synthetic key data generated at step ST32 is the synthetic key data which can be expanded in the sense that the users given the user termination key data can be increased.

Step ST33:

The card management function portion 58 of the management device 20 uses the expandable synthetic key data generated by the owner as the message and uses the first of the mutual authentication key data other than the user termination key data selected by the user as the encryption key to encrypt the device key data to generate the intermediate key data.

Here, when the number of the mutual authentication key data other than the selected user termination key data is one, the card management function portion 58 performs the processing of the following step ST22 using the intermediate key data.

On the other hand, when the number of the mutual authentication key data other than the selected user termination key data is two or more, the card management function portion 58 performs the encryption by using the intermediate key data as the message and using the next mutual authentication key data as the encryption key.

The card management function unit 58 repeats the above processings until using all mutual authentication key data other than the selected termination key data as the encryption key for the encryption and proceeds to the processing of step ST34 when finishing.

Step ST34:

The card management function unit 58 uses the intermediate key data obtained at step ST33 as the message and uses the user termination key data as the encryption key to perform encryption to generate the synthetic key data.

The user termination key data is the tamper-proofing key data and is held by only the owner and the user.

Due to this, illegitimate tampering with the synthetic key data by a party other than the owner and the user can be prevented.

The synthetic key data generated by the processing shown in FIG. 17 is comprised of the mutual authentication key encrypted by the hierarchy as shown in FIG. 18.

Further, in the present embodiment, it is also possible to link a plurality of application element data APE to single mutual authentication key data (for example service, system, and manufacturer AP memory area mutual authentication key data shown in FIG. 13).

Due to this, the authentication using the synthetic key data enables the SAM units 9 a and 9 b to collectively judge whether or not access to the application element data APE related to the single mutual authentication key data is authorized.

For example, in FIG. 19, an authorization C of an instance a of the application element data APE and an authorization B of an instance b are linked with mutual authentication key data 500. For this reason, if the authentication using the synthetic key data degrading the mutual authentication key data 500 succeeds, the SAM units 9 a and 9 b authorize access to both of the instances a and b.

Further, in the present embodiment, it is also possible to use a pair of on-line mutual authentication key data MK1 and off-line mutual authentication key data MK2 as shown in FIG. 20 for all or part of the mutual authentication key data explained by using FIG. 13.

In this case, at the time of the mutual authentication, use is made of the on-line mutual authentication key data MK1, while when transferring data with the other party in the mutual authentication, the data to be transferred is encrypted by using the off-line mutual authentication key data MK2 corresponding to that.

Due to this, even if the on-line mutual authentication key data MK1 is illegitimately acquired by another party, since the data transferred between the means to be authenticated and the authenticating means is encrypted by the off-line mutual authentication key data MK2, illegitimate leakage of the information to the outside can be prevented.

Below, an explanation will be given of the mutual authentication between the SAM management function portion 57 of the management device 20 and the SAM units 9 a and 9 b performed at step ST3 etc. shown in FIG. 3.

In this case, the management device 20 becomes the means to be authenticated, and the SAM units 9 a and 9 b become the authenticating means.

FIG. 21 and FIG. 22 are flow charts for explaining the mutual authentication between the SAM management function unit 57 of the management device 20 and the SAM unit 9 a.

The SAM unit 9 b is the same as the case of the SAM unit 9 a shown below.

Step ST51:

First, the manager or user sets the owner card 72 or the user card 73 in the card reader/writer 53.

Then, the synthetic key data Ka (the first authentication use data of the present invention) and the key designation data stored in the owner card 72 and the user card 73 are read into the SAM management function unit 57 of the management device 20.

The SAM management function unit 57 generates a random number Ra.

Step ST52:

The SAM management function unit 57 encrypts the random number Ra generated at step ST51 by an encryption algorithm 1 by using the synthetic key data Ka read at step ST51 to generate the data Ra′.

Step ST53:

The SAM management function unit 57 outputs the key designation data read at step ST51 and the data Ra′ generated at step ST52 to the SAM unit 9 a.

The SAM unit 9 a receives as input the key designation data and the data Ra′ via the external I/F 62 shown in FIG. 8 and stores this in the memory 63.

Step ST54:

The authentication unit 64 of the SAM unit 9 a specifies the mutual authentication key data indicated by the key designation data input at step ST53 from among the mutual authentication key data stored in the memory 63 or the external memory 7.

Step ST55:

The authentication unit 64 of the SAM unit 9 a uses the mutual authentication key data specified at step ST54 to perform the degradation processing explained using FIG. 16 or FIG. 17 to generate the synthetic key data Kb.

Step ST56:

The authentication unit 64 of the SAM unit 9 a uses the synthetic key data Kb generated at step ST55 to decrypt the data Ra′ input at step ST53 with a decryption algorithm 1 corresponding to the encryption algorithm 1 to generate the random number Ra.

Step ST57:

The authentication unit 64 of the SAM unit 9 a uses the synthetic key data Kb to encrypt the random number Ra generated at step ST56 with an encryption algorithm 2 to generate data Ra″.

Step ST58:

The authentication unit 64 of the SAM unit 9 a generates a random number Rb.

Step ST59:

The authentication unit 64 of the SAM unit 9 a uses the synthetic key data Kb to generate data Rb′.

Step ST60:

The authentication unit 64 of the SAM unit 9 a outputs the data Ra″ generated at step ST57 and the data Rb′ generated at step ST59 to the management device 20.

Step ST61:

The SAM management function unit 57 of the management device 20 uses the synthetic key data Ka to decrypt the data Ra″ and Rb′ input at step ST60 by the decryption algorithm 2 corresponding to the encryption algorithm 2 to generate data Ra and Rb.

Step ST62:

The SAM management function unit 57 of the management device 20 compares the random number Ra generated at step ST51 and the data Ra generated at step ST61.

Then, when the result is the same as the above comparison, the SAM management function unit 57 authenticates that the synthetic key data Kb held by the SAM unit 9 a is the same as the synthetic key data Ka held by the SAM management function unit 57 and the SAM unit 9 a is a legitimate authenticating means.

Step ST63:

The SAM management function unit 57 of the management device 20 uses the synthetic key data Ka to encrypt the data Rb generated at step ST61 by the encryption algorithm 1 to generate the data Rb″.

Step ST64:

The SAM management function unit 57 of the management device 20 outputs the data Rb″ generated at step ST63 to the SAM unit 9 a.

Step ST65:

The authentication unit 64 of the SAM unit 9 a uses the synthetic key data Kb to decrypt the data Rb″ input at step ST64 by the decryption algorithm 1 to generate the data Rb.

Step ST66:

The authentication unit 64 of the SAM unit 9 a compares the random number Rb generated at step ST58 and the data Rb generated at step ST65.

Then, when the same result as that in the above comparison is shown, the authentication unit 64 authenticates that the synthetic key data Kb held by the SAM unit 9 a is the same as the synthetic key data Ka held by the SAM management function unit 57 and the SAM management function unit 57 is a legitimate means to be authenticated.

Below, an explanation will be given of the processings performed by the SAM units 9 a and 9 b based on the results of the mutual authentication explained by using FIG. 21 and FIG. 22.

FIG. 23 is a view for explaining the processings of the SAM units 9 a and 9 b.

Step ST71:

The CPUs 65 of the SAM units 9 a and 9 b shown in FIG. 8 judge whether or not the authentication unit 64 authenticated that the authenticating means was legitimate at step ST66 shown in FIG. 22. When deciding it as legitimate, they proceed to the processing of step ST72, while when deciding it is not, end the processing (that is, judge that the authenticating means does not have any right relating to the processing and do not execute the processing).

Step ST72:

The CPUs 65 of the SAM units 9 a and 9 b execute the processings relating to the mutual authentication key data specified at step ST54 shown in FIG. 21. Due to this, the predetermined service required by the means to be authenticated is provided. Namely, the SAM units 9 a and 9 b judge that the means to be authenticated has the predetermined right and execute the processing authorized for the right.

Below, an explanation will be given of the screens used for issuing various types of cards in relation to the management device 20 explained by using FIG. 2 and FIG. 4.

When the manager etc. operates the operation unit 56 shown in FIG. 2 to instruct display of the operation screen of the management tool 52, for example, as shown in FIG. 24, a SAM management screen 750 is displayed on the display 54.

The SAM management screen 750 displays an image 751 for instructing the preparation of a management tool use card at the tool bar.

Further, the SAM management screen 750 displays an image 752 indicating the network configuration of the SAM connected to the SAM network.

When the user designates the screen 751 on the SAM management screen 750 by for example a mouse of the operation unit 56, an image 753 is displayed.

As the image 753, images indicating the preparation of the owner card, the preparation of the user card, the preparation of the AP encryption card, and the preparation of the transport card are displayed.

Below, an explanation will be given of a screen for when instructing preparation of the cards indicated in the image 751.

First, an explanation will be given of the screen for preparing an owner card.

When the manager instructs the preparation of an owner card on the image 751 shown in FIG. 24 by a mouse, the card management function unit 58 shown in FIG. 2 displays an owner card preparation screen 760 shown in FIG. 25 on the display 54.

The owner card preparation screen 760 displays a used service selection image 761, a service AP memory area designation image 762, a system AP area designation image 763, a device/termination key designation image 764, and a designation decision instruction image 765.

The used service selection image 761 is an image for selecting for example the content of the service authorized to the owner card 72 to be prepared.

The service AP memory area designation image 762 is an image for selecting the format authorized for access to the service AP memory area using the owner card 72 to be prepared.

The system AP memory area designation image 763 is an image for selecting the format authorized for access to the system AP memory area using the owner card 72 to be prepared.

The device/termination key designation image 764 is an image for designating the device key data and the termination key data used for preparing the owner card 72.

The designation decision instruction image 765 is an image for inputting instructions for deciding the designated content.

When finishing designation of required items on the owner card preparation screen 760, the manager designates the designation decision instruction image 765 by the mouse etc.

Due to this, the card set instruction screen 760 shown in FIG. 26 is displayed on the display 54.

When preparing an owner card 72, the card set instruction screen 770 instructs to set the default card 71.

Then, the manager makes the card reader/writer 53 read the data of the IC of the default card 71.

When confirming the legitimacy of the default card 71, the SAM management function unit 57 selects the mutual authentication key data related to the service etc. selected by the manager on the owner card preparation screen 760. The selection corresponds to the selection of step ST12 explained by using FIG. 12.

Next, an explanation will be given of the screen for preparation of a user card.

When the manager instructs the preparation of a user card on the screen 751 shown in FIG. 24 by the mouse, the card management function unit 58 shown in FIG. 2 displays the user card preparation screen 780 shown in FIG. 27 on the display 54.

The user card preparation screen 780 displays a used service selection image 781, a service AP memory area designation image 782, a system AP area designation image 783, a device/termination key designation image 784, and a designation decision instruction image 785.

The used service selection image 781 is an image for selecting the content of the service authorized to the prepared user card 73.

The service AP memory area designation image 782 is an image for selecting the format authorized for access to the service AP memory area using the prepared user card 73.

The system AP memory area designation image 783 is an image for selecting the format authorized for access to the system AP memory area using the prepared user card 73.

The device/termination key designation image 784 is an image for designating the device key data and the termination key data used for preparing the user card 73.

The designation decision instruction image 785 is an image for inputting instructions for deciding the designated content.

When finishing designating the required items on the owner card preparation screen 780, the manager designates the designation decision instruction image 785 by the mouse etc.

Due to this, the card set instruction screen 770 shown in FIG. 26 is displayed on the display 54.

When preparing an owner card 73, the card set instruction screen 770 instructs to set the owner card 72.

Then, the manager makes the card reader/writer 53 read the data of the IC of the owner card 72.

When confirming the legitimacy of the owner card 72, the SAM management function unit 57 selects the mutual authentication key data related to the service etc. selected by the manager on the user card preparation screen 780. The selection corresponds to the selection of step ST12 explained by using FIG. 12.

Next, an explanation will be given of the screen for preparation of an AP encryption card.

When the manager instructs the preparation of an AP encryption card on the image 751 shown in FIG. 24 by the mouse, the card management function unit 58 shown in FIG. 2 displays the AP encryption card preparation screen 790 shown in FIG. 28 on the display 54.

The AP encryption card preparation screen 790 displays a used service selection image 791, a service AP memory area designation image 792, a system AP area designation image 793, a device/termination key designation image 794, and a designation decision instruction image 795.

The used service selection image 791 is an image for selecting the content of the service authorized to for example the prepared AP encryption card 75.

The service AP memory area designation image 792 is an image for selecting the format authorized for access to the service AP memory area using the prepared AP encryption card 75.

The system AP memory area designation image 793 is an image for selecting the format for access to the system AP memory area using the prepared AP encryption card 75.

The device/termination key designation image 794 is an image for designating the device key data and the termination key data used for preparing the AP encryption card 75.

The designation decision instruction image 795 is an image for inputting instructions for deciding the designated content.

When finishing designating the required items on the AP encryption card preparation screen 790, the manager designates the designation decision instruction image 795 by the mouse etc.

Due to this, the card set instruction screen 770 shown in FIG. 26 is displayed on the display 54.

When preparing the AP encryption card 75, the card set instruction screen 770 instructs for example to set the owner card 72.

Then, the manager makes the card reader/writer 53 read the data of the IC of the owner card 72.

When confirming the legitimacy of the owner card 72, the SAM management function unit 57 selects the mutual authentication key data related to the service etc. selected by the manager on the AP encryption card preparation screen 790. The selection corresponds to the selection of step ST12 explained by using FIG. 12.

Next, an explanation will be given of the screen for preparation of a transport card.

When the manager instructs the preparation of a transport card on the image 751 shown in FIG. 24, the card management function unit 58 shown in FIG. 2 displays the transport card preparation screen 800 shown in FIG. 29 on the display 54.

The transport card preparation screen 800 displays an image for instructing the IP address of the SAM authorized for coverage of transport of data, the AP memory area, the APE type of the application element data APE, the instance number, and the version number.

The card management function unit 58 degrades the mutual authentication key data related to the data for which access is authorized in the memory areas of the SAM units 9 a and 9 b based-on the information designated on the transport card preparation screen 800 to generate the synthetic key data and writes this into the transport card 74.

As explained above, by the manager etc. selecting functions and issuing various types of cards based on the screen functionally showing processings etc. provided by the SAM units 9 a and 9 b, the manager can issue cards having the rights matching its own intent without concretely indicating to the manager the mutual authentication key data etc. actually used in the processing. Due to this, leakage of information relating to the security of the SAM units 9 a and 9 b can be avoided.

Below, an explanation will be given of a SAM management screen provided by the SAM management function unit 57 of the management tool 52 shown in FIG. 2.

FIG. 30 is a view for explaining a SAM management screen 1001.

When the manager etc. operates the operation unit 56 shown in FIG. 2 to request the authentication of a SAM management screen display instruction to the management tool 52, for example the SAM management screen 1001 shown in FIG. 30 is displayed on the display 54.

As shown in FIG. 30, the SAM management screen 1001 has a menu bar 1002, a SAM tree area 1003, an attribute information display area 1004, a detailed information display area 1005, and a console area 1006.

The menu bar 1002 is used for designating various operations of the card management function unit 58 shown in FIG. 2.

The operations include file operations, SAM command operations, management tool use card operations, console log operations, and help operations.

The SAM tree area 1003 displays the SAMs (SAM units 9 a and 9 b) operated by the SAM management function unit 57 and the group to which the SAMs belong.

The user selects the SAM covered by the operation on the SAM tree area 1003.

The attribute information display area 1004 displays the information of the SAM and the group selected by the SAM tree area 1003.

The detail information display area 1005 displays a list of various information in the SAM selected by the SAM tree area 1003 or group.

The console area 1006 displays the information and results of various operations on the SAM.

FIG. 31 is a view for explaining a screen showing an example of the display content of the SAM tree area 1003.

As shown in FIG. 31, the SAM tree area 1003 displays various icons indicating the SAMs operated by the SAM management function unit 57 and the groups to which the SAMs belong etc.

FIG. 32 is a view for explaining icons displayed in the SAM tree area 1003.

As shown in FIG. 32, the icons displayed in the SAM tree area 1003 include ones indicating objects and data such as icons of the SAM network, groups (sets of SAMs), SAMs (one SAM), AP memory areas, APE types, and instances.

Further, the icons indicating the states of a SAM include icons such as “STANDBY” indicating that the SAM is in a state where the service is not started, “READY” indicating that the SAM is in the usual state, “READY” indicating the connection state finished the mutual authentication, “SINGLE CONNECTION WAIT” indicating that the completion of another connection is being awaited, and “SINGLE CONNECTION” indicating that only the management tool 52 is connected.

In this way, the SAM tree area 1003 displays images corresponding to SAMs using a plurality of different patterns in accordance with the operating states of the SAMs.

Due to this, the user can easily specify the state of a SAM.

Further, the SAM tree area 1003 displays images corresponding to a SAM by a pattern enabling identification as to whether or not the SAM has finished the mutual authentication, that is, has already confirmed the legitimacy of the means to be authenticated, so the user can easily specify whether or not each SAM ends the mutual authentication.

FIG. 33 is a view for explaining a SAM network screen 1010.

When the user designates the icon of the SAM network by the mouse etc. on the SAM tree area 1003 shown in FIG. 31, the SAM network screen 1010 shown in FIG. 33 is displayed on the display 54.

The SAM network screen 1010 displays the IP addresses, ports, and states of the SAMs connected to the SAM network and information regarding the groups.

FIG. 34 is a view for explaining a group screen 1020.

When the user designates the icon of a group by the mouse etc. on the SAM tree area 1003 shown in FIG. 31, the group screen 1020 shown in FIG. 34 is displayed on the display 54.

The group screen 1020 displays information regarding the IP addresses, ports, and states of the SAMs belonging to the designated group.

FIG. 35 is a view for explaining a SAM screen 1030.

When the user designates the icon of a SAM by the mouse etc. on the SAM tree area 1003 shown in FIG. 31, the SAM screen 1030 shown in FIG. 35 is displayed on the display 54.

The SAM screen 1030 displays information regarding the IDs of the AP memory areas of the designated SAM and the purposes of the AP memory areas.

FIG. 36 is a view for explaining an AP memory area screen 1040.

When the user designates the icon of an AP memory area by the mouse etc. on the SAM tree area 1003 shown in FIG. 31, the AP memory area screen 1040 shown in FIG. 36 is displayed on the display 54.

The AP memory area screen 1040 displays the numbers of the APE types of the designated AP memory area and information regarding the types of the APE types.

FIG. 37 is a view for explaining an APE type screen 1050.

When the user designates the icon of an APE type by the mouse etc. on the SAM tree area 1003 shown in FIG. 31, the APE type screen 1050 shown in FIG. 37 is displayed on the display 54.

The APE type screen 1050 displays the numbers of the instances and the information regarding the system codes, area/service codes, etc. comprised using the designated APE type.

FIG. 38 is a view for explaining an instance screen 1080.

When the user designates the icon of an instance by the mouse-etc. on the SAM tree area 1003 shown in FIG. 31, the instance screen 1060 shown in FIG. 38 is displayed on the display 54.

The instance screen 1060 displays information such as the operation state of the designated instance, the memory area, the IC service key, and the instance number.

FIG. 39 shows a screen when designating the SAM command of the menu bar 1002 shown in FIG. 30.

When the user designates the icon of a SAM command by the mouse etc. on the menu bar 1002 shown in FIG. 30, the SAM command screen 1070 shown in FIG. 39 is displayed on the display 54.

The SAM command screen 1070 displays text images of operations on the SAM such as communication management, AP memory area management, log recording, a negative list, manufacturer settings, etc.

Here, when the user designates the communication management, text images such as acquisition of status, start of service, change of activation code, start of single connection, and disconnection are displayed.

The user performs operations on the SAM by designating these text images.

FIG. 40 is a view for explaining a case of preparing a group of the SAMs on the SAM management screen 1001 shown in FIG. 30.

As shown in FIG. 40, when the user right clicks on the text image of SAM management at the SAM tree area 1003 on the SAM management screen 1001 by the mouse etc., an operation screen 1100 is displayed.

The operation screen 1100 displays text images for instructing the preparation of a group of SAMs, addition of SAMs, and acquisition of newest information of SAMs.

The user can define a group comprising a plurality of selected SAMs by designating the text image of preparation of a group of SAMs by the mouse etc.

In that case, by just issuing from the SAM management function unit 57 an instruction for outputting key designation data to a group, the key designation data is collectively provided to all SAMs (SAM units 9 a and 9 b) belonging to the group.

Further, in response to an instruction from the SAM management function unit 57, all SAMs belonging to the group can be made to collectively perform the processing related to the mutual authentication key data corresponding to the synthetic key data held by the SAM management function unit 57.

Below, an explanation will be given of the AP memory area editor provided by the AP edit tool 51 shown in FIG. 2.

FIG. 41 is a view for explaining an AP memory area editor screen 1200.

As shown in FIG. 41, the AP memory area editor screen 1200 displays the APE types and instance numbers of the application element data APE stored in the AP memory area covered by the editing.

Further, the AP memory area editor screen 1200 displays an icon 1210 indicating addition, an icon 1220 indicating deletion, and an icon 1230 indicating editing.

When the user designates the icon 1210 by the mouse etc., processing for addition of an instance to the AP memory area is carried out.

Further, when designating the icon 1220, processing for deletion of an instance stored in the AP memory area is carried out.

Further, when designating the icon 1230, processing for editing an instance stored in the AP memory area is carried out.

FIG. 42 is a view for explaining a screen 1300 for performing the addition of the package of the application element data APE.

The screen 1300 includes a field 1301 for designating whether to prepare an element or add a version, a field 1302 for selecting the APE type, and a field 1303 for designating the instance number.

The user inputs information concerning the package to be added to the fields 1301, 1302, and 1303.

Due to this, the AP edit tool 51 automatically performs the processing for addition of the element package.

FIG. 43 is a view for explaining a screen 1400 for preparing the application element data APE.

When inputting the predetermined information on the screen 1300 shown in FIG. 42 and designating the screen 1304, the APE preparation screen 1400 shown in FIG. 43 is displayed.

The APE preparation screen 1400 displays the type of the application element data APE to be prepared and the number of the instance thereof.

Further, the APE preparation screen 1400 displays a field 1401 for designating a tag, a field 1402 for designating the number of used versions, a field 1403 for designating whether element acquisition is possible, a field 1404 for designating whether automatic generation of the data is possible, and a field 1405 for designating deletion of an element.

Further, it displays a field 1406 for designating the names and values of attribute information etc. such as various mutual authentication key data related to the application element data APE covered by the preparation.

FIG. 44 is a view for explaining a screen 1500 for adding a version of the application element data APE.

When designating addition of a version in the field 1301, inputting the predetermined information, and designating the image 1304 on the screen 1300 shown in FIG. 42, the APE version addition screen 1500 shown in FIG. 44 is displayed.

The APE version addition screen 1500 displays the type of the application element data APE covered by the preparation and the number of the instance thereof.

Further, the APE version addition screen 1500 displays a field 1501 for designating the element version, a field 1502 for designating the key data input method, and a field 1503 for designating the item name and value of the element data.

When using the screens shown in FIG. 42 to FIG. 44 to prepare the application element data APE and add a version, as shown in FIG. 45, the AP memory area editor screen 1200 displays the information concerning the prepared and added application element data APE in the field 1240.

As explained above, the management device 20, as explained by using FIG. 12 and FIG. 16 etc., uses a plurality of mutual authentication key data related to the processings relating to the SAM units 9 a and 9 b the degradation processing to generate the synthetic key data.

Then, the synthetic key data and the key designation data for specifying the mutual authentication key data used for generating that are written in the owner card 72 and the user card 73.

Further, by performing the mutual authentication shown using FIG. 21 to FIG. 23 between the management device 20 using the owner card 72 etc. and the SAM units 9 a and 9 b, the SAM unit 9 a generates the synthetic key data based on the key designation data received from the management device 20. When the synthetic key data coincides with that held by the management device 20, it can confirm the legitimacy of the management device 20 serving as the means to be authenticated.

Further, together with the confirmation, the processing related to the mutual authentication key data designated by the key designation data can be judged as processing authorized to the management device 20.

Due to this, the SAM units 9 a and 9 b serving as the authenticating means do not have to hold the mutual authentication key data corresponding to all means to be authenticated (for example the management device 20 etc. using the owner card 72 and the user card 73) as in the conventional case and, in addition, do not have to manage the processing authorized to the means to be authenticated in the management table either, so the processing load is reduced.

The present invention is not limited to the above embodiment.

In the present invention, it is also possible to store bio-information of the user of the card in the IC of any of for example the owner card 72, the user card 73., the transport card 74, and the AP encryption card 75 and have the SAM units 9 a and 9 b further use the bio-information stored in the card together with the mutual authentication so as to authenticate the legitimacy of the user.

For example, in the above embodiment, the case where the SAM units 9 a and 9 b performed the mutual authentication with the management device 20 was exemplified, but it is also possible if the SAM units 9 a and 9 b perform the authentication with means to be authenticated such as the ASP server apparatuses 19 a and 19 b or another SAM unit. In this case, the means to be authenticated holds the synthetic key data and the key designation data.

Further, in the embodiment, the case where the owner card 72 and the user card 73 held the synthetic key data and the key designation data was exemplified, but it is also possible to make another mobile device etc. hold these data.

INDUSTRIAL CAPABILITY

The present invention can be applied to a data processing method for performing predetermined processing based on authentication results, its program, and its device. 

1. A data processing method performed by a means to be authenticated for holding first authentication use data generated by encryption using key data and an authenticating means for holding the key data, comprising: a first step by which the means to be authenticated provides key designation data designating the key data to the authenticating means; a second step by which the authenticating means performs encryption using the key data designated by the key designation data received at the first step to generate second authentication use data; a third step by which the means to be authenticated uses the first authentication use data for authentication and uses the second authentication use data for authentication; and a fourth step by which the authenticating means executes processing related to the key data when the authentication at the third step decides that the first authentication use data and the second authentication use data are the same.
 2. A data processing system comprising: a means to be authenticated for holding first authentication use data generated by encryption using key data and an authenticating means for holding the key data, wherein the means to be authenticated provides key designation data designating the key data to the authenticating means, the authenticating means performs encryption using the key data designated by the key designation data received from the means to be authenticated to generate second authentication use data, the means to be authenticated uses the first authentication use data for authentication and the authenticating means uses the second authentication use data for authentication, and the authenticating means executes the processing related to the key data when the authentication decides that the first authentication use data and the second authentication use data are the same.
 3. A data processing method where an authenticating means holding predetermined key data performs authentication together with a means to be authenticated holding first authentication use data generated by encryption using the key data, comprising: a first step of receiving key designation data for designating the key data from the means to be authenticated; a second step of using the key data designated by the key designation data received at the first step for encryption to generate second authentication use data; a third step of using the second authentication use data generated at the second step for authentication with the means to be authenticated using the first authentication use data for authentication; and a fourth step of executing processing related to the key data when the authentication at the third step decides that the first authentication use data and the second authentication use data are the same.
 4. A data processing method as set forth in claim 3, further comprising, in the fourth step, executing the functions of the authenticating means authorized to the means to be authenticated related to the key data or accessing the data held by the authenticating means.
 5. A data processing method as set forth in claim 3, further comprising, when the authentication use data is generated by using a plurality of different key data, in the fourth step, executing a plurality of processings related to the plurality of key data.
 6. A data processing method as set forth in claim 5, further comprising, in the fourth step, executing a plurality of processings including the functions of the authenticating means and access to the data held by the authenticating means relating to the plurality of key data.
 7. A data processing method as set forth in claim 3, further comprising, in the fourth step, accessing the plurality of data modules related to single key data when the authenticating means holds a plurality of data modules as data.
 8. A data processing method as set forth in claim 3, further comprising, in the first step, receiving the key designation data read by a device of the means to be authenticated from an integrated circuit holding the first authentication use data and the key designation data.
 9. A data processing method as set forth in claim 3, wherein the first authentication use data is data generated by encrypting predetermined data by using the key data.
 10. A data processing method as set forth in claim 9, wherein the first authentication use data is data generated by encrypting data obtained by encrypting the predetermined data by using the key data by further using tamper-proofing key data managed by the management side.
 11. A data processing system for authentication with a means to be authenticated holding first authentication use data generated by encryption using predetermined key data and holding the key data, comprising: an inputting means for inputting key designation data for designating the key data from the means to be authenticated; an authenticating means for using the key data designated by the key designation data received by the inputting means for encryption to generate second authentication use data and using the second authentication use data for authentication with the means to be authenticated using the first authentication use data for authentication; and a controlling means for executing processing related to the key data when the authentication by the authenticating means decides that the first authentication use data and the second authentication use data are the same.
 12. A program to be executed by a data processing system for authentication with a means to be authenticated holding first authentication use data generated by encryption using predetermined key data and holding the predetermined key data, comprising: a first routine of receiving key designation data for designating the key data from the means to be authenticated; a second routine of encryption using the key data designated by the key designation data received by the first routine to generate second authentication use data; a third routine of using the second authentication use data generated by the second routine for authentication with the means to be authenticated using the first authentication use data for authentication; and a fourth routine of executing processing related to the key data when the authentication in the third routine decides that the first authentication use data and the second authentication use data are the same.
 13. A data processing method performed by a means to be authenticated when an authenticating means holding key data uses key data designated from the means to be authenticated holding the first authentication use data for encryption to generate second authentication use data, uses the second authentication use data for authentication with the means to be authenticated, and performs processing related to the key data conditional on the authentication confirming that the first authentication use data and the second authentication use data are the same, comprising: a first step of providing key designation data for designating the key data used when generating first authentication use data based on the predetermined generation method to the authenticating means; a second step of using the first authentication use data for authentication with the authenticating means; and a third step of making the authenticating means perform processing related to the key data based on the results of the authentication at the second step.
 14. A data processing method as set forth in claim 13, wherein the means to be authenticated reads and holds the first authentication use data and the key designation data from a predetermined integrated circuit.
 15. A data processing method as set forth in claim 13, further comprising, in the third step, making the authenticating means execute the functions of the authenticating means authorized to the means to be authenticated related to the key data or accessing the data held by the authenticating means.
 16. A data processing method as set forth in claim 13, further comprising, when defining a group comprising a plurality of authenticating means, in the first step, collectively providing the key designation data to the group and, in the third step, collectively making the group perform the processings related to the key data.
 17. A data processing method as set forth in claim 13, further comprising a fourth step of providing a screen displaying an image corresponding to the authenticating means for performing the processing by using a plurality of different patterns in accordance with the operation state of the authenticating means.
 18. A data processing method as set forth in claim 17, further comprising, in the fourth step, providing a screen displaying an image corresponding to the authenticating means by a pattern enabling identification of whether or not the authenticating means already confirmed the legitimacy of the means to be authenticated by the authentication in the second step.
 19. A data processing system forming a means to be authenticated when an authenticating means holding key data uses key data designated from the means to be authenticated holding the first authentication use data for encryption to generate second authentication use data, uses the second authentication use data for authentication with the means to be authenticated, and performs processing related to the key data conditional on the authentication confirming that the first authentication use data and the second authentication use data are the same, comprising: a first means for providing key designation data for designating the key data used when generating first authentication use data based on the predetermined generation method to the authenticating means; a second means for using the first authentication use data for authentication with the authenticating means; and a third means for making the authenticating means perform processing related to the key data based on the results of the authentication of the second means.
 20. A program to be executed by a data processing system forming a means to be authenticated when an authenticating means holding key data uses key data designated from the means to be authenticated holding the first authentication use data for encryption to generate second authentication use data, uses the second authentication use data for authentication with the means to be authenticated, and performs processing related to the key data conditional on the authentication confirming that the first authentication use data and the second authentication use data are the same, comprising: a first routine of providing key designation data for designating the key data used when generating first authentication use data based on the predetermined generation method to the authenticating means; a second routine of using the first authentication use data for authentication with the authenticating means; and a third routine of making the authenticating means perform processing related to the key data based on the results of the authentication of the second means. 